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of development of novel zinc-air flow batteries. Expected start date and duration of employment This is a 2 year position from 1 November 2025 or as soon possible. Job description The position is funded by a
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We are now advertising a new position at DTU Physics for the second half period of our project UltraBat - Capturing Ultrafast Electron and Ion Dynamics in Batteries - generously funded for 4 years
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of development of novel zinc-air flow batteries. Expected start date and duration of employment This is a 2 year position from 1 November 2025 or as soon possible. Job description The position is funded by a
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band batteries as a green alternative to existing batteries (RUBBA)”. The project includes partners from DTU Chemical Engineering and Wollongong University, Australia. Responsibilities and qualifications
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characterization and in situ studies of hard carbon materials for sodium ion batteries. In the project you will work together with another postdoc working on biochar pyrolysis, electrochemical and structural
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thermal systems such as Carnot batteries, thermal storage, and high-efficiency heating. As part of DTU, you will contribute to cutting-edge research supported by world-class facilities and expert
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strong commitment to the green transition, especially in advanced thermal systems such as Carnot batteries, thermal storage, and high-efficiency heating. As part of DTU, you will contribute to cutting-edge
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circuits in thin-film lithium niobate (TFLN) [Zhu2021] and tantalate (TFLT) [Powell2024]. Using the ultrafast Pockels effect in TFLN/TFLT, you will build high-speed cavity-based components [Larocque2024
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Postdoc in development and testing of electrodes for liquid alkaline water electrolysis - DTU Energy
for sustainable energy technologies. The technologies include fuel cells, electrolysis, power-to-x, batteries, and carbon capture. The research is based on strong competences on electrochemistry, atomic scale and